Air heater especially for connection to a central heating system

ABSTRACT

Gas fired air heater for a central heating system comprising a heat exchanger in which are arranged a series of parallel rows of vertical heat exchange tubes, the lower ends of which are connected to a joint burner compartment and the upper ends of which are connected to a joint flue compartment. Two opposite lateral sides of the heat exchanger are connected to air supply and discharge compartments respectively for feeding the air to be heated transversely through the heat exchanger. The lateral air supply and discharge compartments have air inlet and outlet connections at their top and bottom walls only. One of said lateral air compartments is closed at one end and is connected to a fan at the opposite end, whereas at least one end of the other lateral air compartment is connected to a main duct for discharge of the heated air. The heat exchange tubes are grouped in three sections, each of which extends transversely to the direction of flow of the air to be heated and each of which is heated by an individual ribbon type burner. Each section is individually controlled, to which end the individual sections may be connected to the successive stages of a multistage room thermostat set at staggered temperatures.

United States Patent 1191 Van Vliet [5 AIR HEATER, ESPECIALLY FOR CONNECTION TO A CENTRAL HEATING SYSTEM [75] Inventor: C0rs Van Vliet, Zwolle, Netherlands [73] Assignee: N.V. Werktuigenfabriek Mulder,

Kampen, Netherlands 22 Filed: May 23,1972 [21] Appl. No.: 256,077

[30] Foreign Application Priority Data May 24, 1?71 Netherlands 7107090 52 U.S. Cl. 12:6/110 110/97 D, 51 Int. C1 F24h 3/08 [58] Field of Search 126/110 R, 110 B, 116 R, 126/116 B; 165/58, 64; 110/97 D [56] References Cited UNITED STATES PATENTS 732,890 I 7/1903 Pratt 126/110R 1,927,174 9/1933 Jones... 126/1 l6 R 2,292,180 8/1942 Tuck 126/116 R 2,517,446 8/1950 Ryder et a1. 126/110 R 2,682,867 7/1954 Cartter 126/116 B 2,893,374 7/1959 Wilson, 11.... 126/1-10 R 3,l21,l08 6/1938 Tuck 126/116 R 3,275,069 9/1966 Kell 165/64 3,747,586 7/1973 Weiss 126/110 B [11] 3,820,526 1 June 28, 1974 Primary Examiner-William E. Wayner Assistant Examiner-William E. Tapoloai, Jr. Attorney, Agent, or FirmWilkinson, Mawhinney & Theibault 57 ABSTRACT Gas fired air heater for a central heating system comprising a heat exchangerin which are arranged a series of parallel rows of vertical heat exchange tubes, the lower ends of which are connected to a joint burner compartment and the upper ends of which are connected to a joint flue compartment. Two opposite lateral sides of the heat exchanger are connected to air supply and discharge compartments respectively for feeding the air to be heated transversely through the heat exchanger. The lateral air supply and discharge compartments have air inlet and outlet connections at 1 their top and bottom walls only. One of said lateral air compartments'is closed at one end and is connected to a fan at the opposite end, whereas at least one end of the other lateral air compartment is connected to a main duct for discharge of the heated air. The heat exchange tubes are grouped in three sections, each of which extends transversely to the direction of flow of the air to be heated and each of which is heated by an individual ribbon type burner. Each section is individually controlled, to which end the individual sections may be connected to the successive stages of a multistage room thermostat set at staggered temperatures.

5 Claims, 4 Drawing Figures PATENTEDJunee 1974 3320.526

' SHEET 2 UF 3 IIIIITIIIIIIIITII 111L1||||l|||||| AIR HEATER, ESPECIALLY FOR CONNECTION TO A CENTRAL HEATING SYSTEM DISCUSSION OF THE PRIOR ART.

The invention relates to an air heater comprising a heat exchanger compartment in which are arranged a series of parallel rows of vertical heat exchange tubes, the lower ends of which are connected to a joint burner compartment and the upper ends of which are connected to a joint flue compartment, whereas two opposite lateral sides of the heatexchanger compartment are connected to air supply anddischarge compartments respectively for feeding the air to be heated transversely through said heat exchanger compartment. This heater will be further referred to as a heater of the kind specified-. The heater may be gas fired and the heat exchanger tubes may comprise tinned tubes.

SUMMARY OF THE INVENTION .Accordingto one aspect of the invention, said lateral air supply and discharge compartments of a heater of the kind specified have air inletand outlet connections at their top and bottom walls only, one of said connections being connected to a fan for feeding the air to be heated into the relative compartment, the other connection of the same compartment beingclosed, at least one of the connections of the other lateral compartment being connected to a discharge duct for the heater air. r

This provides the advantage that the heater can be installed in a narrow space, sin'cethe air connections are at the top and bottom of the the heater only. More over, the arrangement of the air connections can easily be adapted tothe situation on hand, since the fan connection and the air discharge duct connection can be made at any of the four available locations, either at the right or atthe left or either at the top or at the bottom of the heater, provided that the fan connection is made at the other compartment than the one which the discharge duct is connected.

' According to another aspect of the invention, a heater of the kind specified is characterised in that a separate burneris provided for each individual row of heat exchange tubes situated transversely of the direction of flow of the air to be heated and each burner is separately controlled by an individual thermostat stage such that a next burner is added to the operating set of burners when the capacity thereof becomes insufficient and vice versa.

In this embodiment, switching on and off of anext burner can be done manually, for instance at the change of seasons, but it is preferably obtained automatically by using a multistage thermostat, each of the stages of which controls an other burner or an other group of burners respectively.

A multistage control of the heat capacity is especially important for an air heater, since the circulating air of an air operated central heating plant has'a very small heat content as compared to a hot water operated central heating plant, 50 that an ordinary on-off-operation of an air heater would cause unacceptable temperature fluctuations in the rooms to be heated. On the other hand, a gradual control of the pressure of the gas fed to the gas burners has also disadvantages such as condensation and low efficiency of the throttled flames. By

2, the use of a multistage control, these disadvantages are prevented whereas the control apparatus remains simple and reliable.

SURVEY OF THE DRAWINGS nection.

FIG. 4 is a perspective view of another type of flue connection.

The air heater as shown has a sheet metal casing I enclosing all vital parts, said casing being interiorly lined with insulating material. The main part of the heater is the heat exchanger compartment, comprising a series of parallel rows of tinned vertical tubes 2. These tubes may comprise straight tubes provided with disc shaped or helicals gills but fundamentally may comprise any type of tubes capable of efficient heat transfer between combustion gases flowing through the interior of the tubesand air flowing along the exterior periphery of the tubes. The tubes may for instance have an undulating wall shape etc.

DESCRIPTION OF PREFERREDIEMBODIMENTS 7 In the embodiment described, the heat exchanger comprises three rows or sections each of which comprises three finned tubes. To facilitate mass production, the three-section-type of air heater is preferred, said type being adapted to the required capacity by changing the number of tubes per section. Each section may for instance have two,'three or four tubes.

' A burner compartment 5 is mounted underneath the heat exchanger compartment, the burner compartment comprising a separate burner 4 under each row of finned tubes 2 of the heat exchanger. The burners 4 are arranged parallel to each other in the burner compartment 5 and the top of each burner compartment has a series of outlets 3, each of which is coaxial with one of the finned tubes 2 of the appertaining section of the heat exchanger. A common flue compartment 6 is mounted on top of the heat exchanger compartment, all finned tubes 2 opening into said fluecompartment.

Two air compartments 7 and 8 for supply and discharge respectively of the air to be heated are mounted at two mutually opposite sides of the unit formed by burner compartment 5, heat exchanger compartment 2 and flue compartment 6. The gas supply pipe with control apparatus 9 is mounted at one of the two other sides of said unit, whereas a duct 10 for the supply of combustion air is mounted at the fourth side of said unit. Thus, a simple, conveniently arranged unit isobtained. I

In the embodiment shown, the combustion air supply duct 10 extends fromm the burner compartment 5 upwardly along the rear side of the heat exchanger compartment, whereas a combined combustion air supply and flue gas discharge connection is mounted near the top of the rear side of the heater. The upwardly extending dust 10 opens into the lower compartment 1 l of the the combined connection 19 (FIG. 3) whereas the flue compartment 6 opens into the upper part 12 of said connection 19. Said upper part 12 fits with a sliding fit into the rear end of the flue compartment 6 and the connection 19 can be removed, if desired, to be replaced by an ordinary chimney connection piece 13 (FIG. 4). Said piece 13 has a rectangular upper part 14 which fits into the rear end of the flue compartment 6 and it has an upper opening 15 which fits into the chimney, but the lower part 16 of the side wall adjacent the part 14 is closed, so as to close the inlet opening at the top of the combustion air supply duct 10. When the chimney connection 13 is used, another inlet opening should be provided in the air duct 10 and this may for instance be obtained by providing a slidable rear wall 17 of the air duct 10 so that said wall 17 may be slid upwardly to provide an opening at the lower end of the duct 10, when the chimney connection 13 is used.

However, the described embodiment of the combustion air inlet and flue gas outlet are meant as an example only and may be replaced by other suitable connections. If the heater is not intended for a balanced flue connection, the outlet of the flue compartment 6 may be connected in any known convenient manner to a chimney inlet whereas the combustion air supply duct 10 may be omitted altogether or may for instance extend halfway up to the heat exchanger only. It has been found, however, that a combined connection as shown in FIG. 2, to for instance a ventilation duct in a large building, is permissible for a plurality of heaters to the same ventilation duct without causing an unadmissibly high CO-content in the flue gases, provided the ventilation duct has a sufficient cross section and sufficient air is fed into the duct.

According to one aspect of the invention, the air compartments 7 and 8 at two laterally opposite sides of the heat exchanger compartment are arranged so that even if the available floor space is hardly any larger than the cross section of the heating apparatus, any desired connection can be made with the ducts for circulating the air toward and from the rooms to be heated. The two air compartments 7 and 8 have equal, rectangular cross sections which are closed at their laterally outward sides, so that the air, when looking at FIG. 1, can be fed through the heat exchanging compartment 2 (either from right to left or from left to right) as desired at a particular site for the heater. The air compartment 7 has a connecting aperture 22 in its upper wall and a connecting aperture 23 in its lower wall, whereas the air compartment 8 has a connecting aperture 24 in its upper wall and a connecting aperture 25 in its lower wall. Preferably, the connecting apertures 22 and 24 are of mutually equal configuration and preferably the connection apertures 23 and 25 are also of mutually equal configuration. The connecting apertures 22, 23, 24, 25 are for instance each provided with a circumferential flange having a plurality of bolt holes so that, as desired, anyone of them may be connected to an air duct or to a fan outlet respectively which have similar flanges and bolt holes. Supposing that the air heater is installed on an upper floor of a housing, it will usually be advantageous to connect the duct 26 for the heater air with the lower outlet aperture 23 or 25, whichever one of them is most convenient, but if the air heater is installed in the basement of a building, the duct 26 for the heated air will usually be connected to the outlet aperture 22 or 24. The fan outlet 27 is always connected to the air compartment which has no connection for heated air, whereas the other outlet aperture of the same air compartment will be closed by a blind cover, as shown at the upper right comer of FIG. 1 for the outlet aperture 24. Thus, the recirculation air sucked by the fan from the rooms of the building is blown by the fan to a compartment which has no other outlet than the transverse passage through the heat exchanger compartment, so that the recirculated air is reheated upon passing along the exterior of the heated finned tubes, and the reheated air is fed into the opposite air compartment from which it may be discharged either at the top or at the bottom or, if desired, both at the top and at the bottom. Thus, in FIG. 1 the fan 27 discharges into the lower end of the right side air compartment 8, after which the air flows into the left side air compartment 7 and leaves this compartment via the air discharge duct 26 at the bottom left of FIG. 1. The top of the left side air compartment 7 is closed by a cover 22 provided with a steam outlet 31 for humidifying the heated air, as will be described later on.

Thus, the air heater has a simple, versatile construction and can be installed in cramped quarters according to any of a plurality of different lay-outs, whichever is most suitable for a particular case. In a preferred embodiment, the fan can be mounted in two positions underneath the burner compartment, that is either with its outlet connected to the air compartment 8 or with its outlet connected to the air compartment 7, whereas the main air discharge duct 26 is connectable to the air compartment 7 in the first case and to the air compartment 8 in the second case, in both of which cases one may choose between connection of the duct 26 with the top of the relative air compartment or with the bottomof the relative air compartment. In the embodiment shown in FIG. 1, the main air discharge duct 26 passes through the floor on which the heater is installed, whereas the return duct for the recirculated air is mounted adjacent the duct 26 and passes also through the floor and is connected to the inlet of the fan 27, but it is equally possible to use an elbow shaped main discharge duct 26, which passes through the rear side of the heater as seen in FIG. 1, whereas the fan inlet passes also through said rear side of the heater.

A filter cloth of gauze 28 is mounted in the inlet space of the fan 27 for trapping dust conveyed with the returned air from the heated'rooms. Usually, it is sufficient to clean or replace this filter once a year.

A shallow water container 29 is mounted in the top wall of the flue compartment 6, the bottom 30 of said container being preferably inclined upwardly in the discharge direction of the flue gases as shown in FIG. 2. This promotes the heat transfer from the flue gases to the water in the container 29 for providing steam which is fed into a short pipe 31 leading into the air compartment receiving the air heated in the heat transfer compartment. Preferably, the cover of the upper wall of saidair compartment, the steam pipe 31 and the cover of the water tank 29 form a unit which may be rotated over with respect to the position shown in FIG. 1, so as to feed the steam into the other air compartment 8 when the lay-out of the heater is reversed. Although the reversability of the steam connection as described is preferred, it is not essential, since it would also be possible to feed the steam into the air compartment containing the air, which still has to be fed through the heat exchange compartment.

The amount of steam added to the heated air by the device 29, 30, 31 may automatically be controlled by a room hygrostat controlling an electrovalve for closing als will settle in the tank 29 itself, which may bevregularly cleaned. In contrast to this, the usual water jets or wick evaporates cause uncontrollable mineral deposits in the system.

The finned tubes 2 may be provided with retarders to promote the heat transfer from the flue gases to the air circulating exteriorly of the tubes. The retarders may be formed as helical or meander shaped metal stripes extending longitudinally in the tubes 2, but according to the described embodiments, the retarders are shaped as double cones 32, 33 freely suspended in the tubes 2. The hollow cones 32, 33 are made of refractory mate rial'or a metal which resists high temperatures. The base, that is the upward end, of the outer cone 32 has lateral projections which support the cone on the upper edge of the tube 2, and the cone is perforated throughout itsheight. The interior cone 33 is not perforated and the base thereof, that is its upward end, also has lateral projections with which it is supported on the upper edge of the outer cone 32. Thus, the cones 32, 33 are freely suspended for free heat expansion, and they extend over a substantial part of the length of the tubes, the length of the cones being chosen so that the heat load in longitudinal direction of the tube wall is levelled because of the converging shape of the net free passage through the tube. The retarders moreover force the hot gases to flow along the tube wall, they increase radiant heat transfer because of the high surface temperature of the cones and they cause a turbulant flow and thus an improved heat transfer. As stated, a joint burner 4 extends under each section formed by a single row of tubes 2 extending transversely of the flow of circulating air through the heat exchange compartment. Each burner 4 is provided with a plurality of outlets or burner heads 3 in its upper wall, coaxially with the associated tubes 2. Each outlet comprises a perforated disc shaped part of the upper wall of the burner 4, which disc shaped part has a somewhat smaller diameter than the diameter of the associated inlet opening of the aligned tube 2. The perforated disc 3' preferably comprises a series of parallel extending corrugated strips separated by straight spacer strips which type of burner is usually called a ribbon burner.

This type of burner has the advantage that the percentage of the total area of the burner outlet, which is closed off by the corrugated strips and spacer strips, and thus the free passage percentage with respect to the total area of the burner outlet, can easily be adjusted by selecting a different type of strips. Moreover, the several outlets of each burner may be connected by a narrow slot which is preferably also partially closed by corrugated strips and spacer strips, said slot serving 'to ensure simultaneous firing of the individual outlets of any burner 4. The casing of the burner 4 may be shaped as an elongated box, in the interior of which extends longitudinally an open ended tube 34 having a central hole 37 in the bottom through which extends a gas supply tube 35. The upper end of the gas supply tube 35 is T-shaped and both ends thereof carry a nozzle 36.

The gas supply tube 35 is connected to a control device 9 comprising an electro-rnagnetically operated gas shut-off valve. When this valve is opened, the gas flows from both nozzles 36 into the tube 34, where it is mixed with the combustion air flowing into the burner compartment 5. When the mixture leaves the burner housing via the outlets 3 it is ignited by a pilot flame, which may be common for all outlets of any burner and which may even be common for all burners when small flame transfer tubes are installed between the burners.

According to a most important aspect of the invention, there is a separate control device for at least some of the individual burners of the heater, said control devices being connected to a not shown room thermostat. Preferably, the room thermostat is of the multistage type and the individual gas valves of at least some of the burners 4 are connected to individual stages of said multistage thermostat, which stages are set to open and close the associated gas valve at temperature which are staggered for the successive stages. Thus, each individual section of the-heat exchanger is controlled by a simple on-off-procedure, but because of the staggered temperatures at whicheach stage is switched on and off, the practical result is almost comparable to a pro portional control. A proportional control is most desirable with an air heater, because the low heat content of the circulated air, but a real proportional control with for instance gradual lowering of the gas pressure to each burner, is complicated and-unreliable. By the staggered control according to the invention, the advantages of a proportional control are approximately obtained but the disadvantages thereof are avoided. On the other hand, the disadvantage of a mere on-offcontrol, namely that cold air is blown into the rooms when the heater is switched on after an off-period may also be avoided, since the usual daytime-setting of the thermostat may be chosen so that at least one section of the heater remains continuously in operation and further sections are added to the operation according to the requirements by the further stages of the thermostat.

Although an automatic control by a multistage thermostat is preferred, a very simple part-manual multistage control may be used with a three section heater. In this simplified embodiment, a simple thermostat is used which controls a single section but which control may be manually switched so that at moderate outside temperatures a single section is continuously in operation and the thermostat controls the second section by on and off switching, whereas with cold outside temperatures, two sections remain continuously in operation and the thermostat controls the third section by on-off-switching. Thus, this simplified embodiment requires only a hand operated switch in the controller lines from the thennostat to the control valves of the three burners of the heater. It has been found that in moderate climates this simplified embodiment requires manual switching a few times a year only, namely at the beginning and at the end of a cold spell. It will be clear, however, that a fully automatic control by means of a multistage thermostat will be preferable if sharply fluctuating outside temperatures prevail.

Thus the invention provides an air heater suitable for connection to the air ducts of the central heating system of a house which can be mounted in almost any place. Also, the air heater may be connected to an ordinary chimney as well as to a combined combustion air inlet and flue gas outlet system. Moreover, the heater has a simple and effective temperature control;

What I claim is:

1. An air heater comprising a heat exchanger compartment in which are arranged a series of parallel rows of vertical heat exchange tubes, and a space under said compartment having means for mounting a fan, said heat exchanger compartment having four vertical sidewalls, two opposite sidewalls being connected to laterally adjacent air supply and discharge chests respectively for feeding the air to be heated transversely through said heat exchanger compartment, said air supply and discharge chests having air inlet and outlet connections at their top and bottom walls only, one of said connections being connected to said fan space for feeding the air to be heated into one of said chests, the other connection of the same chest being closed and at least one of the connections of the other lateral chest being connected to a discharge duct for the heated air,

' the first one of both said other two sidewalls of the heat exchanger compartment lying adjacent a rear compartment with low level connections for a combustion air inlet duct and with a high level flue gas outlet duct, whilst the opposite sidewall lies adjacent a front compartment containing a gas supply and control means.

2. Air heater according to claim 1, in which wall connections to tops and bottoms of the two lateral air compartments are interchangeable.

3. Air heater according to claim 1, in which the combustion air inlet duct extends upwardly from the burner compartment inlet over at least part of the height of one lateral side of the heat exchanger compartment.

4. Air heater according to claim 3, in which the combustion air inlet duct extends upwardly up to and then alongside a flue gas outlet duct fixed to the rear of the flue compartment, the end part of said combustion inlet duct and said flue gas outlet duct forming a combined, removable unit.

5. Air heater according to claim 4, in which an individual burner is provided for each individual row of heat exchange tubes situated transversely of the direction of flow of the air to be heated, each said burner having a series of outlets each of which is disposed coaxially under an associated heat exchanger tube. 

1. An air heater comprising a heat exchanger compartment in which are arranged a series of parallel rows of vertical heat exchange tubes, and a space under said compartment having means for mounting a fan, said heat exchanger compartment having four vertical sidewalls, two opposite sidewalls being connected to laterally adjacent air supply and discharge chests respectively for feeding the air to be heated transversely through said heat exchanger compartment, said air supply and discharge chests having air inlet and outlet connections at their top and bottom walls only, one of said connections being connected to said fan space for feeding the air to be heated into one of said chests, the other connection of the same chest being closed and at least one of the connections of the other lateral chest being connected to a discharge duct for the heated air, the first one of both said other two sidewalls of the heat exchanger compartment lying adjacent a rear compartment with low level connections for a combustion air inlet duct and with a high level flue gas outlet duct, whilst the opposite sidewall lies adjacent a front compartment containing a gas supply and control means.
 2. Air heater according to claim 1, in which wall connections to tops and bottoms of the two lateral air compartments are interchangeable.
 3. Air heater according to claim 1, in which the combustion air inlet ducT extends upwardly from the burner compartment inlet over at least part of the height of one lateral side of the heat exchanger compartment.
 4. Air heater according to claim 3, in which the combustion air inlet duct extends upwardly up to and then alongside a flue gas outlet duct fixed to the rear of the flue compartment, the end part of said combustion inlet duct and said flue gas outlet duct forming a combined, removable unit.
 5. Air heater according to claim 4, in which an individual burner is provided for each individual row of heat exchange tubes situated transversely of the direction of flow of the air to be heated, each said burner having a series of outlets each of which is disposed coaxially under an associated heat exchanger tube. 